Sharps container for &#34;no-touch,&#34; sequential safe storage of used pen needles

ABSTRACT

A sharps container for safe storage of used pen needles comprises a housing within which is rotatably mounted a used pen needle receiving and ejecting means. Used pen needles are inserted into the receiving means. The receiving and ejecting means is rotated; during the rotation, cam follower means connected to the ejecting means engages cam means within the housing to cause the ejection of the used pen needle into the housing.

RELATED APPLICATIONS

This application is a continuation of U.S. application Ser. No.12/766,399 filed Apr. 23, 2010, which is a continuation application ofU.S. application Ser. No. 12/033,514 filed Feb. 19, 2008, now U.S. Pat.No. 7,721,886, which is a continuation application of U.S. applicationSer. No. 10/862,835 filed Jun. 7, 2004, now U.S. Pat. No. 7,344,027.

BACKGROUND AND FIELD OF THE INVENTION

This invention relates generally to a “sharps” container for used penneedles (sometimes hereafter referred to as “PNs”) and specifically to asharps container for used PNs which provides the safe (no-touch)sequential feeding or insertion of used PNs into the container for safestorage therein.

Because of well known health issues, the safe disposal of syringes andother “sharps” has long been a high priority for medical relatedprofessional facilities and industries. Prior art sharps containers arefound in public venues such as hospitals, medical clinics, and retailestablishments. These containers are usually securely attached to somebase means and have a lock means to permit controlled and safe removalof used “sharps.”

There are also prior art “portable” sharps containers for syringes,examples being U.S. Pat. Nos. 5,494,158 and 6,685,017 showing sharpscontainers which necessarily are large because of the size of theelongated syringes.

Medical delivery pens (hereinafter sometimes “MDPs”) have, morerecently, become widely used instead of or in addition to syringes,e.g., by diabetics, who frequently inject themselves several times a daywith accurately measured, adjustable, pre-selected amounts of insulin orother medication. Medical delivery pens include a reservoir ofmedication and a distal end adapted to be attached (usually by threadmeans) to a pen needle assembly (PNA). As is well known (see, forexample FIG. 1 of U.S. Pat. No. 5,545,145), the pen needle assembly has(within an outer, generally cylindrical shield 28) a generallycylindrical housing 26 within which is mounted an axially extendinghollow needle 21, (i) the proximal end 24 of which punctures a seal inthe distal end 16 of the medical delivery pen 10 (to allow the flowthere-through of medication) when the delivery pen is screwed into theproximal end of the pen needle cylindrical housing 26, and (ii) thedistal end 22 of which is for insertion into tissue of the personrequiring the medication. The pen needle assemblies typically include aremovable thin sterile seal covering the proximal (large diameter) endof the said outer shield and a removable tube-like shield covering thedistal portion of the hollow needle. The assembled pen needle assemblyis then factory sterilized. The user of a pen needle assembly removesthe seal from the outer shield, screws the pen into the proximal end ofthe pen needle housing, removes the outer and tube-like shields, setsthe medical delivery pen for the desired dose of medication, and theninserts the distal end of the pen needle into the target tissuefollowing which the medical delivery pen is actuated to deliver thedesired dose of medication through the hollow needle into said tissue.

Many diabetics routinely administer medication to themselves severaltimes a day by injection of a pre-selected quantity of insulin (orsubstitute medication) in liquid form; the correct amount of medicationcan be determined from prior professional medical instruction or by useof convenient portable blood analysis kits which are small, compact andprovide rapid indicators of the user's blood sugar level. The severaldaily injections are often done away from the diabetic's home orresidence which has made the use of the portable, convenient medicaldelivery pens widespread. The aforesaid testing kits and the medicaldelivery pens are relatively small in size and can easily fit within awoman's purse or equivalent. A typical scenario for a diabetic at arestaurant for a meal is to first use the blood sugar testing kit toobtain an indicator of his or her blood sugar level. This informationthen facilitates programming or adjusting the medical delivery pen todeliver the desired quantity of medication. Then the pen with anattached PN (a PNA sans the outer protective shield) is used to injectthe medication. These steps require a relatively short length of timeand can be done with minimum loss of privacy.

MDPs are also widely used by doctors, nurses and other professionals intheir duties. Many individuals will request (sometimes insist) that aninjection be done with a pen needle rather than a syringe. Theaforementioned professionals are especially mindful of possible dangersfrom a needle stick and the possible unwanted “sticks” that occur in theprofessional world.

In a perfect world, the user (both individual and professional) of a penneedle assembly would, after the first use of a pen needle, carefullydetach the used PN from the medical delivery pen and safely dispose saidPN. The approved disposal procedure is (i) insertion of the distal endof the needle into the tube-like shield (sometimes omitted) and thencethe shielded needle and PN cylindrical housing into the outer shield,(ii) unscrewing of the medical delivery pen from the proximal end of thepen needle cylindrical housing, and (iii) careful placement of the usedpen needle assembly into a safe sharps container. Alas, the recommendedprocedure is not always followed. Used (and potentially dangerous) PNsor PNAs are routinely left in unsafe places where third parties mayunwittingly be “stuck.” Examples of such unsafe places are purses, thepockets on the back of aircraft seats, private and public wastebaskets,garbage cans, dumpsters and empty milk or other unsafe containers.

Further, the above described disposal procedure requires that the user(or associate) handle or hold the PN while the pen is unscrewedtherefrom; this creates the possibility of a potentially dangerous stickAlso, if the user (or associate) tries to insert the PN into the outershield to form a PNA, then additional handling is again required withthe possibility of a “stick”.

One prior art example of a container for unused and used pen needleassemblies is U.S. Pat. No. 5,545,145 which shows a tube containing asmall number of unused pen needle assemblies arranged in axialalignment. This patent also teaches that, as unused assemblies areremoved from one end of the tube, then a used assembly may be insertedinto the tube from the other end. The tube is adapted to be attached tothe side of a medical delivery pen. This arrangement has significantshortcomings. The capacity is quite limited and, potentially dangerous“sticks” could occur when a user (or associate) tries to insert a usedPN (with or without the protective outer shield) into the used end ofthe tube.

The present invention provides a totally “no-touch” means for a user ofa PNA to transfer a used PN from a pen into the unique used PN sharpscontainer for safe storage therein without, as indicated, any touchingof the used PN by the user.

SUMMARY OF THE INVENTION

This invention provides a sharps container for safe manual, sequential“feeding” of used PNs into the container for safe storage therein. Thecontainer is a housing with an internal storage space sized to hold aplurality of used PNs. A used PN receiving and ejecting means isprovided within the housing and includes (i) manually rotatable meansconnected to the housing for rotation about an axis, (ii) an ejectorassembly connected to the manually rotatable means (to rotate therewithabout the axis) and including a cam follower means, and (iii) cam meanson the housing positioned to contact and actuate the cam follower meansupon rotation of the manually rotatable means, the “actuation” of thecam follower means causing the “ejection” of the PN into the container.

The invention provides a sharps container which is especially useful foran individual such as a diabetic who may require several daily doses ofmedication, which doses are required throughout the day (frequently atmeal time) and thus may occur at the users residence but are often atother locations such as the user's place of work, at a restaurant, in anautomobile or aircraft, etc. The container can be relatively compact andsized to fit within a woman's purse or equivalent.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a top, side isometric view of the preferred embodiment of a PNsharps container provided by the invention.

FIG. 2 is a side view, partly in section, of the container of FIG. 1.

FIG. 3 is an enlarged view of that part of the top 12A of the housingthat includes a port or opening 13 as shown in FIG. 2 and as viewedalong section lines 3-3 thereof.

FIG. 4 is an enlarged view of the ejector means 30 shown in FIG. 2 asviewed along section lines 4-4 thereof and including a pen needle 50positioned in the ejector means 30.

FIG. 5A is a cross-section view of the ejector means 30 as viewed alongsection lines 5A-5A of FIG. 4, this view showing the pen needle 50.

FIG. 5B is a cross-section view of the ejector means 30 as viewed alongsection lines 5B-5B of FIG. 4 but with the pen needle 50 removed toenable the showing of ribs 35 of the ejector means 30.

FIGS. 6 and 7 are somewhat schematic views of the housing and theejector means showing the ejector means in two orientations when rotatedabout the axis by the manually rotatable means.

FIG. 8 is a cross-section view of the rotatable means as viewed alongsection lines 8-8 of FIG. 2.

DETAILED DESCRIPTION OF THE INVENTION

In FIG. 1 a sharps container AA provides a means for the safe, i.e., “nodirect human touching” storage of used pen needles. The container AAcomprises a housing 10 having a bottom or storage section 11 and anupper or cover section 12 which fit together as is shown clearly inFIGS. 2, 6 and 7 to define an internal storage space sized to facilitatethe safe storage of a plurality of used pen needles. Thus section 11 hassides and a bottom surface 11A for receiving the used pen needles and atop edge 11B with a rim 11′. Cover section 12, as viewed in FIGS. 6 and7 has a curved shape about an axis. The top 12A of the cover section 12has an opening 13 sized to permit the axial insertion therethrough of aused pen needle PN also identified in the drawings by reference numeral50. The bottom edge 12B of the cover section 12 has an inwardlyextending latch portion which co-acts with rim 11′ to provide a lockingmeans for sections 11 and 12. Section 12 has two planar ends 12′ and 12″shown best in FIG. 2.

FIG. 1 shows, in phantom, a medical delivery pen (MDP) of the well knowntypes currently used having at the distal end thereof male thread meansfor attachment to female threads in the proximal end of a pen needle 50.It should be understood that pen needle 50 shown in FIG. 1 has alreadybeen used and the user desires to safely remove the used pen needle fromthe pen and thence place the used pen needle into safe storage means.The pen needle 50 has a cylindrical surface 51 with a pre-selected outerdiameter. The cylindrical surface 51 also has a plurality oflongitudinally extending shallow grooves 54 (see FIGS. 1, 2 and 4) whichco-act with ribs 35 of the pen needle receiving and ejecting assembly30, described below, to hold the pen needle against rotation about itslongitudinal axis when the user unscrews the pen therefrom.

A manually rotatable means comprising an external knob 14 with connectedshafts 15′ and 15″ and a central collar 16 rotatably supported bybearing means 12C and 12D in ends 12′ and 12″ respectively of thehousing for rotation, relative to the housing, about a rotational axisRA. The collar 16 has a central bore sized to receive and firmly holdthe ejector assembly 30 and additionally has means 16A and 16B forattachment thereto of the inboard ends of shafts 15′ and 15″. Shaft 15′has a bore ISA with a square cross-section for receiving a squarecross-section shaft 14A connected to external knob 14. Thus rotation ofthe knob 14 will rotate the ejector assembly 30 about the rotationalaxis RA.

The ejector assembly 30, for this embodiment, is shown to comprise anelongated tubular member 31 having two ends, an upper end 31′ and alower end 31″. The upper end 31′ per se is best shown in FIG. 5B andcomprises a bore 33 sized to receive the aforesaid pre-selected outercylindrical surface 51 of used pen needle 50. Bore 33 axially extendsfrom end 31′ a pre-selected distance terminating with an inwardlyextending shoulder means 34′. A plurality of axially extending ribs 35are integral with tubular member 31 and extend radially inward from thesides of the bore 33 a sufficient amount so as to engage the shallowgrooves 54 of the pen needle 50 to provide the above described holdingfunction.

The remaining bore of tubular member 31 is identified by referencenumeral 32; thus bores 32 and 33 together have a pre-selected axiallength, the two ends of which are defined by the ends 31′ and 31″ of thetubular member 31. Importantly, the ends 31′ and 31″ are approximatelyequidistant from the rotational axis RA. Further, the total axial lengthof the tubular member 31 is pre-selected, regard being given to the sizeof the housing 10, so that it may be rotated about the rotational axisRA without contacting the inside surface 12AA of the housing but yethave the end 31′ (for the used pen needle receiving function) adjacentto opening 13 of the housing.

An elongated ejector means 40 has a pre-selected axial length and acylindrical shape 40′ sized to snuggly, but slidably fit within bores 32and 33 (for relative axial movement therewith) is shown in FIGS. 2, 5A,5B, 6 and 7. At the top of a first end 40A (as shown in FIG. 5A) of theejector means 40, a longitudinally extending bore 40″ is provided whichextends to an end surface 40″′ which is adjacent to the bottom or secondend 40B. End 40B is curved to provide a cam follower surface. It isimportant to note that end 40B normally extends a pre-selected distancebeyond the end 31″ of tubular member 31; this is shown in FIG. 5A.

The ejector means 40 includes an integral pair of latch arms 41 and 42having, respectively, latch means 41′ and 42′ for engagement withshoulder means 34′; this provides a holding function to prevent theejector means 40 from being moved axially out of the tubular member 31(downward as shown in FIG. 5A). However, as described below, the entireejector means 40 is, during the used pen needle ejection phase, movedupwardly (as shown in FIG. 5A) by the caroming action of cam follower40B contacting the cam surface 12AA on the inside of housing 10. FIG. 7shows the ejector means 40 at its maximum axial displacement relative tothe tubular member 31. Such upward, axial motion of the ejector meansrelative to the member 31, while sufficient to eject the used penneedle, is limited by a stop means 40AA (on ejector means 40) abuttingagainst an internal shoulder 31 AA of member 31.

FIG. 5A shows the used pen needle 50 positioned in the recessed bore 33with the cylindrical surface 51 and associated grooves 54 in firmengagement with bore 33 and its associated ribs 35. Referring to FIG.5B, it is seen that the ribs 35 are slightly tapered from top 35′ tobottom 35″; this taper function of ribs 35 in combination with reversetapers of the grooves 54 on the cylindrical surface 51 of the used penneedle facilitates the aforesaid firm holding of the pen needle. Toexplain further, when the pen user inserts the pen needle 50 through theopening 13 of the housing and thence into the recessed bore 33, therewill be enough axially force applied by the user via the pen to the penneedle to firmly engage the pen needle to the member 31 following whichthe user will unscrew the pen from the pen needle. FIG. 5A also showsthe radial wall 52 of the pen needle, and the centrally positioned,axially extending hollow needle 53 having a proximal end 53′ and adistal end 53″. The bore 40″ is axially sized to accommodate allexpected lengths of needles.

Referring to FIG. 6, it is seen that the used pen needle receiving andejecting means 30 is oriented about the rotational axis RA so that theend 31′ is adjacent to and aligned with the opening 13 of the housing12. It should be understood, for this explanation, that a used penneedle is already positioned within bore 33 as aforesaid. In this view,the cam follower 40B is shown extending out end 31′ of tubular member31. To eject the pen needle, the knob 14 is manually rotated clockwiseas shown in FIG. 6; this rotation continues to the orientation shown inFIG. 7. Beginning prior to this point the cam follower 40B has hadinitial contact with the inside curved surface 12AA of the housing. Asthe clockwise rotation continues the cam follower (and the entireejector means 40) is subject to an axial force tending to move theejector means 40 in the axial direction toward end 31′. The end resultis that the used pen needle 50 will be ejected out of the bore 33 intothe bottom of the housing as is shown in FIG. 7. Note in FIG. 7 that theend 40A of the ejector 40 is co-planar with end 31′ of tubular member31. The magnitude of the axial force applied to the used pen needle 50during the ejection is a function of the level of co-action between theribs 35 and grooves 54; the force can vary to impart a range ofvelocities to the ejected pen needle. In all cases, the inventionprovides for the safe storage of the used pen needles; the ejectionvelocity of the used pen needle being irrelevant because they areconfined within the housing.

The apparatus is then available to safely dispose of additional used penneedle assemblies. The user rotates the knob 14 to an angular positionas shown in FIGS. 1 and 6 whereat the next used pen needle (on the endof a pen) may be inserted, via opening 13, into the bore 33.

It will be understood that the pen user does not have to touch the usedpen needle either to (i) remove the used pen needle from the pen, or(ii) dispose the used pen needle into a safe storage means.

While we have shown our preferred embodiment of the invention, it willbe understood that variations may be made without departing from theinventive concept. For example, while the ejector mechanism has beenpositioned within a tubular member, other means may provide theelongated bore means within which the ejector mechanism is positioned.Accordingly, the invention is to be limited only by the scope of thefollowing claims.

1. (canceled)
 2. A sharps container for facilitating the safe manual,sequential feeding of cylindrically shaped used pen needles into saidsharps container for safe storage therein, said used pen needles havinga pre-selected outer diameter, said sharps container comprising: ahousing; a cover section, which together with the housing defines aninternal storage space sized to facilitate the safe storage therein of aplurality of used pen needles, said housing and the cover section areconfigured to lock together; an internal cam associated with the sharpscontainer; and a rotatable used pen needle receiver having an ejectormechanism associated therewith located within at least one of thehousing and the cover section, said rotatable used pen needle receiverhaving a first position and a second position, wherein the ejectormechanism of the rotatable used pen needle receiver is capable ofcooperating with the internal cam upon rotation of the used pen needlereceiver to convey a pen needle positioned within the used pen needlereceiver in the first position to a second position and to eject theused pen needle within the internal storage space in the second positionof the used pen needle receiver.
 3. The sharps container of claim 2,wherein the housing and the cover section include mutually engagingmembers.
 4. The sharps container of claim 3, wherein the housing has arim.
 5. The sharps container of claim 4, wherein the cover section has alatch portion which co-acts with the rim of the housing.
 6. The sharpscontainer of claim 5, wherein the latch portion is inwardly extending.